$Let A be an uncountable set, B a countable subset of A, and C the complement of B in A. Prove that there exists a one-to-one correspondence between A and C.$

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$Let A be an uncountable set, B a countable subset of A, and C the complement of B in A. Prove that there exists a one-to-one correspondence between A and C.$

Let A be an uncountable set, B a countable subset of A, and C the complement of B in A. Prove that there exists a one-to-one correspondence between A and C.

Discrete Mathematics

Momoney69

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Kav10

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Low bounty!
- Momoney69
  
  0
  
  how much higher?
Kav10

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I would say 10-15 makes sense.
- Momoney69
  
  0
  
  all set, done!
- Kav10
  
  0
  
  Sounds good.

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Kav10

0

I would say 10-15 makes sense.

Momoney69

0

all set, done!

Kav10

0

Sounds good.

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Kav10

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$Let A be an uncountable set, B a countable subset of A, and C the complement of B in A. Prove that there exists a one-to-one correspondence between A and C.$

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